Abstract: An apparatus for splicing of optical waveguide sections is in the form of a handheld splicer. The splicer comprises a preprocessing unit, which may comprise a plurality of processing devices for carrying out removal, cleaning and cutting steps. The optical waveguide sections are clamped in a holding apparatus and are prepared in the preprocessing unit. The holding apparatuses are inserted with the prepared optical waveguide sections into a splicing unit, where they are spliced. The spliced optical waveguide sections can be fed by means of a transfer station to a shrinking oven for shrinking a shrink sleeve on. The preprocessing unit, the splicing unit and the shrinking oven can be controlled by means of one hand of an operator, while the splicer is held with the other hand.

Abstract: The disclosure relates to a connector for simultaneously connecting optical fibers and copper conductors, comprising two connector parts (11, 12) which can be fitted together, a first connector part (11) being assigned to a tether cable (13), in which first optical fibers, branched off from a riser cable (14) by means of a furcation adapter, and first copper conductors, likewise branched off from a riser cable (14), are run, a second connector part (12) being assigned to a distribution cable (15), in which second optical fibers and second copper conductors are run, it being possible for the first optical fibers and the second optical fibers as well as the first copper conductors and the second copper conductors to be connected by fitting the two connector parts (11, 12) together, and a hollow-like cutout with a contour that is adapted to the contour of the riser cable (14) being respectively formed both on an underside of a housing of the first connector part (11) and on an underside of a housing of the secon

Abstract: Fiber optic terminals and methods for establishing optical connections are disclosed. In one embodiment, a fiber optic terminal is provided that includes a base defining an interior chamber. The fiber optic terminal includes a terminal cover configured to close onto the base. A plurality of fiber routing guides are disposed in the base defining an optical fiber perimeter in the interior chamber. At least one fiber optic connection panel is disposed in the fiber optic terminal for establishing optical connections. The fiber optic connection panel is disposed on the internal surface of the terminal cover such that when the terminal cover is closed, the fiber optic connection panel is disposed within the optical fiber perimeter. In this manner, routing of optical fibers around the optical fiber perimeter provides space for disposing the fiber optic connection panel in the fiber optic terminal when the terminal cover is closed.

Abstract: A multipart end-piece adaptor that holds a fiber for stripping, cleaning and splicing that converts into a protective housing for the spliced fiber includes a first adaptor part having a guide sleeve and a second adaptor part that cooperates with the first adaptor part, the second adaptor part having a stripping apparatus. The second adaptor part can be a consumable that, once actuated and removed to strip the fiber, cut the fiber and clean the fiber in one action may be discarded. A further adaptor part engages two first adaptor parts with a guide opening for a coated optical fiber to form a protective housing around the spliced optical fiber.

Abstract: An apparatus for processing at least one optical waveguide comprises a combination of a stripper, a cleaner and a cleaver. The stripper, the cleaner and the cleaver are adapted to remove a coating of the optical waveguide, clean and cleave the at least one optical waveguide. The apparatus comprises at least one sensor to determine a feature of the at least one optical waveguide.

Abstract: The invention relates to a holding apparatus for splice protection devices with splices, accommodated in the splice protection devices, of optical waveguides, with a base wall and a plurality of separating elements which engage on the base wall, the separating elements demarcating accommodating regions from one another which run substantially parallel to one another for in each case at least one splice protection device.

Abstract: An optical cable comprises a plurality of elongate members wherein at least one of the elongate members include at least one optical fiber surrounded by buffer tube. The buffer tube is made of a soft material having a tension at break of less than 7.5 MPa. The elongate members are disposed around a central element. A binder is wrapped around the plurality of elongate members. An outer jacket surrounds the plurality of elongate members.

Abstract: A device for receiving a fiber optic cable subassembly and fastening the subassembly to a mounting is disclosed. The device comprises a body having a front end, a rear end, a topside, and an underside. A rear anchor is formed on the underside at the rear end and is adapted to be introduced in a recess of the mounting. A u-shaped stop is formed on the underside at the front end. The u-shaped stop has a closed portion and a front anchor formed therein. The u-shape stop is adapted to be introduced in a recess of the mounting for fastening the subassembly received on the device to the mounting. When the u-shape stop is introduced in the recess of the mounting, the u-shaped stop deforms resulting in the body arching and thereby clamping the front anchor and the rear anchor in the recesses of the mounting.

Abstract: A sealing body for a cable sleeve, in which a compensation element is embodied as an elastomer element that is inlaid or embedded in the gel-like sealing element is disclosed. The compensation element, by means of which the alterations in the material behavior of the gel-like sealing element which occur in use can be compensated, is embodied as an elastomer element inlaid in the gel-like sealing element.

Abstract: A modular separating box for light guides having a receiving chamber, and/or a sending chamber, and/or a connection chamber enclosed by individual doors is disclosed. The modular separating box has at least one wall with at least one movable plate. The modular separating box also has at least one connection panel that forms a wall of the receiver and/or sending chamber, where fastening elements for joining one modular separating box with successive modular separating boxes for creating a modular arrangement of modular separating boxes are located on the upper and/or lower and/or side surfaces of the box housing. The system of modular separating boxes for light guides contains a set of interconnected modular separating boxes.

Abstract: An optical cable comprises a tight-buffered optical cable and a protective sleeve which surrounds the tight-buffered optical cable. An intermediate layer surrounds the protective sleeve has tension-resistant elements. Furthermore, the optical cable contains a cable sheath which surrounds the intermediate layer, and a transitional area facing its inner surface. In this transitional area, the material of the cable sheath is mixed with the tension-resistant elements of the intermediate layer.

Abstract: The disclosure relates to a connector for simultaneously connecting optical fibers and copper conductors, comprising two connector parts (11, 12) which can be fitted together, a first connector part (11) being assigned to a tether cable (13), in which first optical fibers, branched off from a riser cable (14) by means of a furcation adapter, and first copper conductors, likewise branched off from a riser cable (14), are run, a second connector part (12) being assigned to a distribution cable (15), in which second optical fibers and second copper conductors are run, it being possible for the first optical fibers and the second optical fibers as well as the first copper conductors and the second copper conductors to be connected by fitting the two connector parts (11, 12) together, and a hollow-like cutout with a contour that is adapted to the contour of the riser cable (14) being respectively formed both on an underside of a housing of the first connector part (11) and on an underside of a housing of the secon

Abstract: A cable sleeve for the structured storage and handling of optical waveguides guided in optical waveguide cables is disclosed. The cable sleeve comprises a covering body, which defines an interior. The cable sleeve also comprises a sealing body comprising two dimensionally stable end pieces and a compressible gel element arranged between the end pieces. The sealing body is adapted to be inserted into an opening of the covering body and is operable for feeding optical waveguide cables into the interior and/or for feeding optical waveguide cables out of the interior. The sealing body bears against a stop with an inner one of the two dimensionally stable end pieces. A locking body can be screwed to an outer one of the two dimensionally stable end pieces of the sealing body while compressing the gel element. At least one compensation element is operable for storing the force applied via the locking body and exerting a compression force onto the gel element.

Abstract: A system for the distribution of optical fibers is disclosed. The system has a first furcation area, which is associated with a first fiber optic cable, to tap off a subset of the optical fibers of the first fiber optic cable in the form of a tether cable. The first fiber optic cable may be a riser cable. The tether cable is supplied to a spool device to store any excess length of the tether cable while complying with the minimum permissible bending radius of the optical fibers. The system has a second furcation area, which is associated with the spool device, to separate the optical fibers of the tether cable. The separated optical fibers of the tether cable can each be supplied to an individual splice storage device in which, in each case, one spliced joint can be placed between a separated optical fiber of the tether cable and an optical fiber of a second fiber optic cable, which may be a drop cable.

Abstract: A splicer comprises a positioning device, in which the fiber ends in general have a residual offset. A memory stores a predetermined relationship between the possible offset and a parameter which controls the application of heat. The parameter which controls the application of heat, for example the splicing time for a predetermined splicing current, is defined on the basis of an actual offset which can be recorded by means of cameras.

Abstract: An optical transmission element comprises optical waveguides embedded into a UV-curing protective layer. The optical waveguides and the UV-curing protective layer are surrounded by a sheath, on which spherical elements are arranged. A conductive layer is applied on the sheath and the spherical elements arranged thereon, said conductive layer having a resistivity. of an order of magnitude of 5·1010 ohms per meter measured at a temperature of between 18 degrees Celsius and 24 degrees Celsius and a relative humidity of 45 percent. In the case of an optical transmission element of this type, electrostatic charging when the optical transmission element is blown into an empty conduit is avoided to the greatest possible extent, such that possible blowing-in lengths within a range of between 500 meters and 1000 meters are obtained.

Abstract: A cable is provided which is longitudinally waterproof and has improved fire protection characteristics. The cable contains a composite material with a first substance which can be expanded by water being supplied to it, and a second substance which can be foamed by heat being supplied to it and is suitable for production of a glass layer. The composite material also has a substrate to which the first substance and the second substance are bonded. The composite material can be produced by dissolving the first substance and the second substance in a solvent, and by introducing the solvent into the support material, or by applying it to the support material.

Abstract: There is disclosed an optical waveguide distribution device having a distribution panel with splice cassettes removably connected thereto. Fiber optic splices are placed within the splice cassettes, so that removal of the splice cassettes allows improved access to the splices. In addition, the distribution panel includes a front wall upon which are positioned a plurality of couplings. The front wall is removably connected to the distribution panel to allow improved access to the couplings.

Abstract: A coupling device for coupling at least one optical waveguide to an optical component having a holding element for holding the at least one optical waveguide, a mounting element for fixing the optical component, and a spacing element. The holding element is fitted to the mounting element. The spacing element is arranged between the holding element and the mounting element, as a result of which the holding element and the mounting element are arranged at a distance from one another.

Abstract: An apparatus for processing at least one optical waveguide comprises a base and a movable part, the movable part being movable with respect to the base. The apparatus comprises a lever, the lever being attached to the base and comprising a notch for holding a cleaved-off part of the at least one optical waveguide. The apparatus comprises a link, one end of which is adapted to be coupled to the lever and an other end of which coupled to the movable part. The cleaved-off part is moved transversely with respect to the longitudinal direction of the at least one optical waveguide by the lever in response to a movement of the movable part.